/*! * Module requirements. */ 'use strict'; const castArraysOfNumbers = require('./helpers').castArraysOfNumbers; const castToNumber = require('./helpers').castToNumber; /*! * ignore */ exports.cast$geoIntersects = cast$geoIntersects; exports.cast$near = cast$near; exports.cast$within = cast$within; function cast$near(val) { const SchemaArray = require('../array'); if (Array.isArray(val)) { castArraysOfNumbers(val, this); return val; } _castMinMaxDistance(this, val); if (val && val.$geometry) { return cast$geometry(val, this); } return SchemaArray.prototype.castForQuery.call(this, val); } function cast$geometry(val, self) { switch (val.$geometry.type) { case 'Polygon': case 'LineString': case 'Point': castArraysOfNumbers(val.$geometry.coordinates, self); break; default: // ignore unknowns break; } _castMinMaxDistance(self, val); return val; } function cast$within(val) { _castMinMaxDistance(this, val); if (val.$box || val.$polygon) { const type = val.$box ? '$box' : '$polygon'; val[type].forEach(arr => { if (!Array.isArray(arr)) { const msg = 'Invalid $within $box argument. ' + 'Expected an array, received ' + arr; throw new TypeError(msg); } arr.forEach((v, i) => { arr[i] = castToNumber.call(this, v); }); }); } else if (val.$center || val.$centerSphere) { const type = val.$center ? '$center' : '$centerSphere'; val[type].forEach((item, i) => { if (Array.isArray(item)) { item.forEach((v, j) => { item[j] = castToNumber.call(this, v); }); } else { val[type][i] = castToNumber.call(this, item); } }); } else if (val.$geometry) { cast$geometry(val, this); } return val; } function cast$geoIntersects(val) { const geo = val.$geometry; if (!geo) { return; } cast$geometry(val, this); return val; } function _castMinMaxDistance(self, val) { if (val.$maxDistance) { val.$maxDistance = castToNumber.call(self, val.$maxDistance); } if (val.$minDistance) { val.$minDistance = castToNumber.call(self, val.$minDistance); } }